Physiological effects of ocean acidification on early life stages of porcelain crab Petrolisthes cinctipes

Oceans are becoming more acidic as a consequence of absorbing elevated levels of atmospheric CO2 , a process known as ocean acidification (OA). Responses to OA are likely related to an organisms??? natural habitat and their capacity to buffer environmental change. Few studies assess physiological im...

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Main Author:	Carter, Hayley Anne
Other Authors:	Biology
Format:	Thesis
Language:	English
Published:	San Francisco State University 2014
Subjects:	Ocean acidification
Online Access:	http://hdl.handle.net/10211.3/123774

id	ftcalifstateuniv:oai:dspace.calstate.edu:10211.3/123774
record_format	openpolar
spelling	ftcalifstateuniv:oai:dspace.calstate.edu:10211.3/123774 2023-05-15T17:50:49+02:00 Physiological effects of ocean acidification on early life stages of porcelain crab Petrolisthes cinctipes Carter, Hayley Anne Biology 2014-08-05T17:25:20Z http://hdl.handle.net/10211.3/123774 en_US eng San Francisco State University http://hdl.handle.net/10211.3/123774 Copyright by Hayley Anne Carter, 2012 AS36 2012 BIOL .C37 Thesis 2014 ftcalifstateuniv 2022-04-13T11:13:20Z Oceans are becoming more acidic as a consequence of absorbing elevated levels of atmospheric CO2 , a process known as ocean acidification (OA). Responses to OA are likely related to an organisms??? natural habitat and their capacity to buffer environmental change. Few studies assess physiological impacts on coastal intertidal organisms living in environments with C02--induced pH minima lower than IPCC OA projections for year 2100. We used an intertidal crab, Petrolisthes cinctipes, to explore variation in energetic processes across early life-history stages during exposure to low pH. Physiological mechanisms allowing larvae to transition from stable pH environments (pelagic) to habitats with pH fluctuations (intertidal zone) are poorly understood. To determine whether metabolic responses to OA vary among early developmental stages we measured metabolic rates, total protein, dry weights, total lipids and C/N in embryos, larvae and juveniles reared in ambient (7.96??0.04) or low pH (7.60??0.06). Embryos exposed to pH 7.60 displayed 11% and 6% lower metabolism and dry weight, respectively. However, responses varied by clutch indicating significant maternal effects among six females. Larval and juvenile metabolism was not affected by C02. Larvae contained 7% less nitrogen and C/N was 6% higher in individuals reared at pH 7.60, representing a switch from lipid to protein metabolism. Dry weight was 19% reduced in juveniles after 8 d in pH 7.60, however differences disappeared at 33d suggesting compensation after long-term exposure. Differences in energy partitioning likely underlie varying sensitivities to OA among stages and clutches. Understanding organism responses to high C 0 2 in variable pH environments is vital in predicting future influences of OA on near-shore ecosystems. Thesis Ocean acidification California State University (CSU): DSpace
institution	Open Polar
collection	California State University (CSU): DSpace
op_collection_id	ftcalifstateuniv
language	English
description	Oceans are becoming more acidic as a consequence of absorbing elevated levels of atmospheric CO2 , a process known as ocean acidification (OA). Responses to OA are likely related to an organisms??? natural habitat and their capacity to buffer environmental change. Few studies assess physiological impacts on coastal intertidal organisms living in environments with C02--induced pH minima lower than IPCC OA projections for year 2100. We used an intertidal crab, Petrolisthes cinctipes, to explore variation in energetic processes across early life-history stages during exposure to low pH. Physiological mechanisms allowing larvae to transition from stable pH environments (pelagic) to habitats with pH fluctuations (intertidal zone) are poorly understood. To determine whether metabolic responses to OA vary among early developmental stages we measured metabolic rates, total protein, dry weights, total lipids and C/N in embryos, larvae and juveniles reared in ambient (7.96??0.04) or low pH (7.60??0.06). Embryos exposed to pH 7.60 displayed 11% and 6% lower metabolism and dry weight, respectively. However, responses varied by clutch indicating significant maternal effects among six females. Larval and juvenile metabolism was not affected by C02. Larvae contained 7% less nitrogen and C/N was 6% higher in individuals reared at pH 7.60, representing a switch from lipid to protein metabolism. Dry weight was 19% reduced in juveniles after 8 d in pH 7.60, however differences disappeared at 33d suggesting compensation after long-term exposure. Differences in energy partitioning likely underlie varying sensitivities to OA among stages and clutches. Understanding organism responses to high C 0 2 in variable pH environments is vital in predicting future influences of OA on near-shore ecosystems.
author2	Biology
format	Thesis
author	Carter, Hayley Anne
spellingShingle	Carter, Hayley Anne Physiological effects of ocean acidification on early life stages of porcelain crab Petrolisthes cinctipes
author_facet	Carter, Hayley Anne
author_sort	Carter, Hayley Anne
title	Physiological effects of ocean acidification on early life stages of porcelain crab Petrolisthes cinctipes
title_short	Physiological effects of ocean acidification on early life stages of porcelain crab Petrolisthes cinctipes
title_full	Physiological effects of ocean acidification on early life stages of porcelain crab Petrolisthes cinctipes
title_fullStr	Physiological effects of ocean acidification on early life stages of porcelain crab Petrolisthes cinctipes
title_full_unstemmed	Physiological effects of ocean acidification on early life stages of porcelain crab Petrolisthes cinctipes
title_sort	physiological effects of ocean acidification on early life stages of porcelain crab petrolisthes cinctipes
publisher	San Francisco State University
publishDate	2014
url	http://hdl.handle.net/10211.3/123774
genre	Ocean acidification
genre_facet	Ocean acidification
op_source	AS36 2012 BIOL .C37
op_relation	http://hdl.handle.net/10211.3/123774
op_rights	Copyright by Hayley Anne Carter, 2012
_version_	1766157723533049856

Physiological effects of ocean acidification on early life stages of porcelain crab Petrolisthes cinctipes

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